CN1810298A - Bacteriostatic porous polyelectrolyte material and its prepn process - Google Patents
Bacteriostatic porous polyelectrolyte material and its prepn process Download PDFInfo
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- CN1810298A CN1810298A CN 200610018182 CN200610018182A CN1810298A CN 1810298 A CN1810298 A CN 1810298A CN 200610018182 CN200610018182 CN 200610018182 CN 200610018182 A CN200610018182 A CN 200610018182A CN 1810298 A CN1810298 A CN 1810298A
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Abstract
One kind of porous bacteriostatic polyelectrolyte material suitable for stopping bleeding and dressing wound is disclosed. The material features that it is prepared with chitosan solution in 1-5 wt% concentration and sodium alginate solution 1-5 wt% concentration in the weight ratio of 0.25-4 as material and through mixing and freeze drying. The chitosan solution is prepared through dissolving chitosan in water solution of acetic acid. The material includes also sulfadizine silver or PVP-iodine bacteriostatic agent in the amount of 3-10 wt% of chitosan and sodium alginate. The porous material has no toxicity, relatively great pores, high water absorption rate and short bleeding stopping period.
Description
Technical field
The present invention relates to a kind of porous material that wound is used that is suitable for stopping blooding, applying.
Background technology
In recent years, sponge is widely used in fields such as medicament slow release, wound dressing, cell culture and organizational projects, the focus that utilizes natural biopolymer exploitation bio-medical sponge and porous material to become research.Chitosan (Chitosan) is a kind of polycation polysaccharide, and its basic structural unit is β-(1 → 4)-2-amino-2-deoxidation-D-glucosan.Chitosan has good biological activity and biocompatibility, studies show that it has the wound healing of promotion and hemostatic effect equally, and is therefore noticeable with application in the research of aspects such as artificial skin, hemostatic material and wound dressing material.Alginic acid extracts from Brown algae, by β-(1 → 4)-D-mannuronic acid and polyanion heteropolysaccharide that α-(1 → 4)-L-guluronic acid is formed.Sodium alginate (Sodium alginate) is the sodium salt of alginic acid, has the wound healing of promotion, hemostatic function, and the application aspect treatment of wounds is increasingly extensive.Chitosan is prepared to sponge material usually, is used for osteanagenesis, cell culturing bracket and wound dressing.But the toxicity of cross-linking agent-glutaraldehyde that chitosan sponge is commonly used has directly limited its application at biomedical aspect.
Summary of the invention
The object of the present invention is to provide a kind of avirulent bacteriostatic porous polyelectrolyte material and preparation method thereof.
To achieve these goals, technical scheme of the present invention is: a kind of bacteriostatic porous polyelectrolyte material, it is characterized in that it comprises the chitosan solution of 1 ~ 5wt% and the sodium alginate soln raw material of 1 ~ 5wt%, make by weight blend in 1: 4 ~ 4: 1 and lyophilization; Wherein, chitosan solution is that chitosan is dissolved in the aqueous acetic acid gained.
Described raw material also comprises silver sulfadiazine or polyvinylpyrrolidone-iodine antibacterial, and the addition of silver sulfadiazine or polyvinylpyrrolidone-iodine is 3 ~ 10% of chitosan and a sodium alginate weight.
A kind of preparation method of bacteriostatic porous polyelectrolyte material, it is characterized in that comprising the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 1 ~ 5wt%, 2). with the sodium alginate soln of the chitosan solution of 1 ~ 5wt% and 1 ~ 5wt% mixed by weight 1: 4 ~ 4: 1 chitosan/mixed solution of sodium alginate, fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
Described step 2) in, silver sulfadiazine or polyvinylpyrrolidone-iodine are dispersed in chitosan/mixed solution of sodium alginate, and the addition of silver sulfadiazine or polyvinylpyrrolidone-iodine accounts for 3 ~ 10% of material dry weight in chitosan/mixed solution of sodium alginate (being chitosan and sodium alginate weight).
The present invention prepares a kind of bacteriostatic porous polyelectrolyte material by solution blending and lyophilization, and this material is avoided using has toxic cross-linking agent, has avirulent characteristics; The present invention has bigger aperture and higher water absorption rate than pure chitosan porous material, has short bleeding stopping period than gelfoam and medical proof fabric.Realized bacteriostasis property by the load to different antibacterial, the porous material of year silver sulfadiazine can continue antibacterial, and the initial sterilizing ability of porous material of year polyvinylpyrrolidone-iodine is strong.Process safety of the present invention, simple effective, compliance with environmental protection requirements.Porous material of the present invention is applicable to hemostatic material in medical use and wound dressing.
Description of drawings
Fig. 1-the 1st, the scanning electron microscope collection of illustrative plates in the CS porous material cross section of comparative example 1 of the present invention
Fig. 1-2 is the scanning electron microscope collection of illustrative plates in the CSAL31 porous material cross section of the embodiment of the invention 2
Fig. 1-the 3rd, the scanning electron microscope collection of illustrative plates in the CSAL11 porous material cross section of the embodiment of the invention 2
Fig. 1-the 4th, the scanning electron microscope collection of illustrative plates in the CSAL13 porous material cross section of the embodiment of the invention 1
Fig. 2 is the water absorption rate figure as a result of porous material of the present invention
The specific embodiment
In order to understand the present invention better, further illustrate content of the present invention below in conjunction with embodiment, but content of the present invention not only is confined to the following examples.
Embodiment 1:
A kind of preparation method of porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that 1% aqueous acetic acid obtains 2wt% (weight percent concentration), 2). then with its by 1: 3 part by weight mix with 2wt% (weight percent concentration) sodium alginate soln chitosan/mixed solution of sodium alginate, fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). follow the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains bacteriostatic porous polyelectrolyte material (chitosan/sodium alginate porous material), and label is CSAL13.The result of its pore structure, water absorption rate, bleeding stopping period is shown in Fig. 1-4, Fig. 2 and table 1 respectively.
Embodiment 2:
Preparation method is with embodiment 1, and the proportioning when only changing the mixing of chitosan solution and sodium alginate soln is 1: 1 and 3: 1, and the product that obtains label respectively is CSAL11 and CSAL31.The result of its pore structure, water absorption rate, bleeding stopping period is shown in Fig. 1-3, Fig. 1-2, Fig. 2 and table 1 respectively.
Embodiment 3:
1), a kind of preparation method of bacteriostatic porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that 1% aqueous acetic acid obtains 2wt%, 2). then with its by 1: 3 part by weight mix with the 2wt% sodium alginate soln chitosan/mixed solution of sodium alginate, the silver sulfadiazine antibacterial is dispersed in chitosan/mixed solution of sodium alginate, its addition accounts for 7% of material dry weight in the mixed solution (being chitosan and sodium alginate weight), fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). follow the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains bacteriostatic porous polyelectrolyte material (carrying the porous material of silver sulfadiazine), and label is CSAL31
AgIts bacteriostasis property evaluation is shown in table 2.
2), the proportioning when above-mentioned preparation method only changes chitosan solution and sodium alginate soln and mixes is 1: 1 and 3: 1, the product that obtains label respectively is CSAL11
Ag, CSAL13
AgIts bacteriostasis property evaluation is shown in table 2.
Embodiment 4:
1), a kind of preparation method of bacteriostatic porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that 1% aqueous acetic acid obtains 2wt%, 2). then with its by 1: 3 part by weight mix with the 2wt% sodium alginate soln chitosan/mixed solution of sodium alginate, polyvinylpyrrolidone-iodine antibacterial is dispersed in chitosan/mixed solution of sodium alginate, its addition accounts for 7% of material dry weight in the mixed solution (being chitosan and sodium alginate weight), fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). follow the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains bacteriostatic porous polyelectrolyte material (carrying the porous material of polyvinylpyrrolidone-iodine), and label is CSAL31
1Its bacteriostasis property evaluation is shown in table 2.
2), the proportioning when above-mentioned preparation method only changes chitosan solution and sodium alginate soln and mixes is 1: 1 and 3: 1, the product that obtains label respectively is CSAL11
1, CSAL13
1Its bacteriostasis property evaluation is shown in table 2.
Comparative example 1:
Chitosan is dissolved in the chitosan solution that obtains 2wt% in 1% the aqueous acetic acid, is poured into lyophilization in the mould, then successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization obtains the pure chitosan porous material in mould once more, and label is CS.The result of its pore structure, water absorption rate, bleeding stopping period is shown in Fig. 1-1, Fig. 2 and table 1 respectively.
1, aperture ratio: the present invention is with respect to the small and dense pore space structure in pure CS porous material cross section, and composite porous aperture of the present invention increases.
2, water absorption rate relatively: the porous material of certain mass is placed anhydrous CaCl is housed
2Exsiccator in, be dried to constant weight under the room temperature, weighing obtains sample dry weight (W
Dry).It immerse is contained in the weighing botle of distilled water under the room temperature fully behind the swelling, take out and blot surface moisture with filter paper after weigh, obtain the weight in wet base (W of sample
Wet).The water absorption rate of sample (WA) is calculated as follows and obtains:
Along with the increase of sodium alginate content, composite porous water absorption rate of the present invention increases, and particularly CSAL13 has improved about 130% than the water absorption rate of pure CS porous material.
3, bleeding stopping period is relatively:
The bleeding stopping period of the various hemostatic materials of table 1.
Hemostatic material | Bleeding stopping period/s |
CS CSAL31 CSAL11 CSAL13 gelfoam hospital gauze | 51 46 43 45 59 66 |
At first make the hemorrhage wound surface of 1cm * 1cm, use CSAL (CSAL31, CSAL11, CSAL13, below the identical) porous material of different proportionings to apply and press hemostasis, the record bleeding stopping period then respectively at the hind leg of white mice.Simultaneously, in contrast with commercially available hospital gauze and gelfoam.Various materials carry out parallel test 3 examples respectively, calculate average bleeding stopping period.
The anthemorrhagic performance of CSAL porous polyelectrolyte material obviously is better than gelfoam and hospital gauze, and the also purer CS porous material of its bleeding stopping period is short simultaneously.
4, bacteriostasis property:
The bacteriostasis property of the porous material of the porous material of table 2. year polyvinylpyrrolidone-iodine and year silver sulfadiazine.
Carry the porous material of antibacterial | Antibacterial circle diameter (d)/mm | ||
2 days | 4 days | 6 days | |
CSAL31 1 CSAL11 1 CSAL13 1 | 20.0 20.0 21.0 | 4.0 3.8 3.5 | 0 0 0 |
CSAL31 Ag | 10.0 | 8.3 | 7.5 |
CSAL11 Ag | 10.5 | 8.0 | 7.8 |
CSAL13 Ag | 10.0 | 8.1 | 7.5 |
Porous material is made the circular specimen that diameter is 10mm, the bacteriostasis property of test porous material behind ultraviolet disinfection 15min.Changing a subculture and bacterium liquid in the experiment in per two days, is contrast with medicine carrying membrane not, measures the antibacterial circle diameter (d, unit mm) of medicine carrying membrane to staphylococcus aureus, follows the tracks of and detects antibacterial circle diameter over time.Wherein, antibacterial circle diameter is that antibacterial circle diameter by the medicine carrying porous material deducts not that medicine carrying porous material antibacterial circle diameter obtains.
The porous material that carries silver sulfadiazine can continue antibacterial, and the porous material of year polyvinylpyrrolidone-iodine has the strong characteristics of initial sterilizing ability.
Embodiment 5:
A kind of preparation method of porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 1wt%, 2). with the sodium alginate soln of the chitosan solution of 1wt% and 5wt% mixed by weight 1: 4 chitosan/mixed solution of sodium alginate, fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
Embodiment 6:
A kind of preparation method of porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 5wt%, 2). with the sodium alginate soln of the chitosan solution of 5wt% and 1wt% mixed by weight 4: 1 chitosan/mixed solution of sodium alginate, fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
Embodiment 7:
A kind of preparation method of bacteriostatic porous polyelectrolyte material, comprise the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 1wt%, 2). with the sodium alginate soln of the chitosan solution of 1wt% and 5wt% mixed by weight 1: 4 chitosan/mixed solution of sodium alginate, silver sulfadiazine is dispersed in chitosan/mixed solution of sodium alginate, and the addition of silver sulfadiazine accounts for 3% of material dry weight in chitosan/mixed solution of sodium alginate (being chitosan and sodium alginate weight); Fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into: 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
Embodiment 8:
A kind of preparation method of bacteriostatic porous polyelectrolyte material comprises the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 5wt%, 2). with the sodium alginate soln of the chitosan solution of 5wt% and 1wt% mixed by weight 4: 1 chitosan/mixed solution of sodium alginate, polyvinylpyrrolidone-iodine is dispersed in chitosan/mixed solution of sodium alginate, and the addition of polyvinylpyrrolidone-iodine accounts for 10% of material dry weight in chitosan/mixed solution of sodium alginate (being chitosan and sodium alginate weight); Fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
The bound value and the interval value of chitosan solution of the present invention, sodium alginate soln, silver sulfadiazine or polyvinylpyrrolidone-iodine raw material can both be realized the present invention, just differ at this and one enumerate embodiment.
Claims (4)
1. a bacteriostatic porous polyelectrolyte material is characterized in that it comprises the chitosan solution of 1 ~ 5wt% and the sodium alginate soln raw material of 1 ~ 5wt%, makes by weight blend in 1: 4 ~ 4: 1 and lyophilization; Wherein, chitosan solution is that chitosan is dissolved in the aqueous acetic acid gained.
2. a kind of bacteriostatic porous polyelectrolyte material according to claim 1, it is characterized in that: described raw material also comprises silver sulfadiazine or polyvinylpyrrolidone-iodine antibacterial, and the addition of silver sulfadiazine or polyvinylpyrrolidone-iodine is 3 ~ 10% of chitosan and a sodium alginate weight.
2. the preparation method of a kind of bacteriostatic porous polyelectrolyte material as claimed in claim 1, it is characterized in that comprising the steps: 1). at first chitosan is dissolved in the chitosan solution that aqueous acetic acid obtains 1 ~ 5wt%, 2). with the sodium alginate soln of the chitosan solution of 1 ~ 5wt% and 1 ~ 5wt% mixed by weight 1: 4 ~ 4: 1 chitosan/mixed solution of sodium alginate, fully stir and obtain compound polyelectrolyte, pour lyophilization in the mould after the homogenate into; 3). with the compound polyelectrolyte after the lyophilization in the mould successively at CaCl
2Use distilled water wash with immersion back in the NaOH solution, lyophilization in mould once more obtains product.
4. the preparation method of a kind of bacteriostatic porous polyelectrolyte material according to claim 1, it is characterized in that: described step 2), silver sulfadiazine or polyvinylpyrrolidone-iodine are dispersed in chitosan/mixed solution of sodium alginate, and the addition of silver sulfadiazine or polyvinylpyrrolidone-iodine is 3 ~ 10% of chitosan and a sodium alginate weight.
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